CN111605349A

CN111605349A - Carving high-temperature-resistant transfer applique method and equipment

Info

Publication number: CN111605349A
Application number: CN202010277624.3A
Authority: CN
Inventors: 韩涛; 刘刚; 汤白露
Original assignee: Sevay Precision Technology Guangdong Co ltd
Current assignee: Sevay Precision Technology Guangdong Co ltd
Priority date: 2020-04-08
Filing date: 2020-04-08
Publication date: 2020-09-01

Abstract

The invention discloses a method and equipment for carving high-temperature-resistant transfer decals, which comprises the following operation steps: step S1, fixing the paster; step S2, pattern printing; step S3, carving edges; step S4, pattern pickup; step S5, covering the transfer film; step S6, compacting and fitting; step S7, fixing the pattern; s8, peeling the transfer film, wherein the invention has the advantages that the moving structure drives the sticker to move, so that the sticker completes the work of printing and carving, separating the pattern, pasting the transfer film and the like, the printed pattern is separated from the blank part in a carving mode, the carving position is attached to the edge of the pattern, and the cut pattern is attached to the outer surface of the product through the viscous transfer film, thereby improving the aesthetic degree of the product, simultaneously, the manual operation of operators is not needed, and the workload of the operators is reduced.

Description

Carving high-temperature-resistant transfer applique method and equipment

Technical Field

The invention relates to the technical field of vehicle appearance mark printing, in particular to a method and equipment for carving high-temperature-resistant transfer decals.

Background

With the development of society, more and more families with vehicles such as automobiles, motorcycles or electric bicycles have evolved from the vehicles used as transportation vehicles to the vehicles used for working and leisure with strong personalized colors, and people are pursuing novel and fashionable vehicles with beautiful appearance and strong personalization.

In the prior art, only an approximate shape can be cut after the traditional external applique and the high-temperature resistant applique are printed on a material, the peripheral dimension can be clearly seen after the external applique and the high-temperature resistant applique are attached to the surface of a product, the transparent part can see the glue coated on the back side, the attractiveness is affected, and in the peanut attaching process, an operator needs to manually pick up the applique, so that the workload of the operator is increased.

Disclosure of Invention

The invention aims to solve the problems that the traditional external applique and the high-temperature resistant applique can only be cut into approximate shapes after being printed on materials, the peripheral dimensions can be clearly seen after the external applique and the high-temperature resistant applique are attached to the surface of a product, the transparent part can see glue coated on the back side, the appearance is influenced, and in the process of attaching peanuts, an operator needs to manually pick up the appliques, so that the workload of the operator is increased.

The technical scheme of the invention for realizing the aim is as follows: a method for carving high-temperature-resistant transfer applique comprises the following steps: step S1, fixing the paster; step S2, pattern printing; step S3, carving edges; step S4, pattern pickup; step S5, covering the transfer film; step S6, compacting and fitting; step S7, fixing the pattern; step S8, peeling the transfer film;

step S1: the paster is placed on the transfer applique equipment, and the transfer applique equipment fixes the paster;

step S2: the transfer applique equipment prints the pattern on the sticker;

step S3: the transfer applique equipment carves along the edge of the pattern to separate the pattern from the blank sticker;

step S4: the transfer applique equipment peels the separated blank sticker off the bottom plate, and only the sticker part with the pattern is left on the bottom plate;

step S5: the transfer film is covered on the paster with patterns;

step S6: compacting the transfer film and the sticker with the pattern to ensure that the transfer film is attached to the sticker with the pattern;

step S7: peeling the transfer film from the bottom plate, enabling the transfer film and the sticker with the pattern to simultaneously leave the bottom plate, and pasting the transfer film and the sticker with the pattern on the surface of a product to be pasted at high temperature;

step S8: and peeling the transfer film off the product, and leaving the sticker with the pattern on the surface of the product.

The sticker is placed in the center of the transfer applique device in step S1.

The transfer film in step S5 is a thermosetting ink PVC material.

The transfer film in the step S5 corresponds to a sticker having a pattern.

A carving high-temperature-resistant transfer applique device comprises an operation platform, wherein a printing carving structure, a separation structure, a laminating structure and a moving structure are arranged on the operation platform;

the printing engraving structure comprises: the printing and carving all-in-one machine comprises two first straight pin screw rod modules, two supporting rods, a second straight pin screw rod module and a printing and carving all-in-one machine head;

the two first straight pin screw rod modules are symmetrically embedded on the upper wall surface of the operating platform, the two support rods are arranged on the upper wall surface of the moving end of the two first straight pin screw rod modules, the second straight pin screw rod module is arranged at one end of the two support rods, and the head of the printing and carving all-in-one machine is arranged on the lower wall surface of the moving end of the second straight pin screw rod module.

The separation structure includes: the fixing frame, the third straight pin screw rod module, the first cylinder and the pressing plate are arranged on the fixing frame;

the fixed frame is arranged on the upper wall surface of the operating platform, the third straight pin screw rod module is arranged on the lower wall surface of the fixed frame, the first air cylinder is arranged on the lower wall surface of the moving end of the third straight pin screw rod module, and the pressing plate is arranged at the telescopic end of the first air cylinder.

The film covering structure includes: the device comprises a mounting rack, a film transferring roller, a compacting roller, a winding roller, three belt wheels, a belt, a limiting wheel and a motor;

the mounting bracket is installed on the wall surface of the operating platform, the film transferring roller is installed on the mounting bracket, the compacting roller is installed on the mounting bracket, the winding roller is installed on the mounting bracket, three belt wheels are sleeved on the film transferring roller, the compacting roller and one end of the winding roller, belts are sleeved on the three belt wheels, the limiting wheels are installed on the mounting bracket, and the motor is installed at one end of the film transferring roller.

The moving structure includes: the two fourth straight pin screw rod modules, the two second cylinders, the table board and the two locking plates;

the two fourth straight pin screw rod modules are symmetrically embedded on the upper wall surface of the operating platform, the two second cylinders are arranged on the upper wall surface of the moving end of the two fourth straight pin screw rod modules, the table board is sleeved at the telescopic ends of the two second cylinders, and the two locking plates are arranged at one ends of the telescopic ends of the two second cylinders.

The lower wall surface of the pressing plate is of a viscous structure.

And a scraper is arranged at one end of the mounting rack.

The carving high-temperature-resistant transfer applique method and the equipment manufactured by the technical proposal of the invention drive the sticker to move through the moving structure, so that the sticker finishes the work of printing, carving, pattern separation, pasting a transfer film, etc., the printed pattern is separated from the blank part in a carving way, the carving position is pasted on the edge of the pattern, and the cut pattern is pasted on the outer surface of the product through the viscous transfer film, thereby improving the aesthetic degree of the product, simultaneously, the manual operation of operators is not needed, the workload of the operators is reduced, the problem that the traditional external applique and high-temperature-resistant applique only can cut approximate shapes after printing on the material is solved, the peripheral shape size can be clearly seen after pasting on the surface of the product, the transparent part can see the glue coated on the back, the appearance is affected, and the operator needs to manually pick up the applique when the peanut is pasted, increasing the workload of the operator.

Drawings

Fig. 1 is a schematic structural view of a front view of the engraving high-temperature-resistant transfer applique method and the engraving high-temperature-resistant transfer applique equipment.

Fig. 2 is a rear view structural diagram of the engraving high-temperature-resistant transfer applique method and the engraving high-temperature-resistant transfer applique equipment.

Fig. 3 is a schematic structural view of the working state of the engraving high-temperature-resistant transfer applique method and the engraving high-temperature-resistant transfer applique equipment.

Fig. 4 is a schematic top view of the engraving high temperature resistant transfer applique method and apparatus of the present invention.

In the figure: 1. an operation table; 2. a first straight pin screw rod module; 3. a strut; 4. a second straight pin screw rod module; 5. a head of the printing and engraving all-in-one machine; 6. a fixed mount; 7. a third straight pin screw rod module; 8. a first cylinder; 9. pressing a plate; 10. a mounting frame; 11. a transfer film roll; 12. a compaction roller; 13. a wind-up roll; 14. a belt; 15. a limiting wheel; 16. a motor; 17. a fourth straight pin screw rod module; 18. a second cylinder; 19. a table top; 20. a locking plate; 21. a squeegee; 22. a pulley.

Detailed Description

The invention will be described in detail below with reference to the accompanying drawings, and as shown in fig. 1-4, a method for engraving a high temperature resistant transfer applique includes the following steps: step S1, fixing the paster; step S2, pattern printing; step S3, carving edges; step S4, pattern pickup; step S5, covering the transfer film; step S6, compacting and fitting; step S7, fixing the pattern; step S8, peeling the transfer film; step S1: the paster is placed on the transfer applique equipment, and the transfer applique equipment fixes the paster; step S2: the transfer applique equipment prints the pattern on the sticker; step S3: the transfer applique equipment carves along the edge of the pattern to separate the pattern from the blank sticker; step S4: the transfer applique equipment peels the separated blank sticker off the bottom plate, and only the sticker part with the pattern is left on the bottom plate; step S5: the transfer film is covered on the paster with patterns; step S6: compacting the transfer film and the sticker with the pattern to ensure that the transfer film is attached to the sticker with the pattern; step S7: peeling the transfer film from the bottom plate, enabling the transfer film and the sticker with the pattern to simultaneously leave the bottom plate, and pasting the transfer film and the sticker with the pattern on the surface of a product to be pasted at high temperature; step S8: peeling the transfer film from the product, and leaving the sticker with the pattern on the surface of the product; the paster in the step S1 is placed at the center of the transfer applique equipment; the transfer film in the step S5 is made of a thermosetting ink PVC material; the transfer film in the step S5 corresponds to a sticker having a pattern.

A carving high-temperature-resistant transfer applique device comprises an operation platform 1, wherein a printing carving structure, a separation structure, a laminating structure and a moving structure are arranged on the operation platform 1; the printing engraving structure comprises: the printing and carving integrated machine comprises two first straight pin screw rod modules 2, two supporting rods 3, a second straight pin screw rod module 4 and a printing and carving integrated machine head 5; the two first straight pin screw rod modules 2 are symmetrically embedded on the upper wall surface of the operating platform 1, the two support rods 3 are arranged on the upper wall surface of the moving end of the two first straight pin screw rod modules 2, the second straight pin screw rod module 4 is arranged at one end of the two support rods 3, and the printing and carving all-in-one machine head 5 is arranged on the lower wall surface of the moving end of the second straight pin screw rod module 4; the separation structure includes: the device comprises a fixed frame 6, a third straight pin screw rod module 7, a first air cylinder 8 and a pressure plate 9; the fixed frame 6 is arranged on the upper wall surface of the operating platform 1, the third straight pin screw rod module 7 is arranged on the lower wall surface of the fixed frame 6, the first air cylinder 8 is arranged on the lower wall surface of the moving end of the third straight pin screw rod module 7, and the pressing plate 9 is arranged at the telescopic end of the first air cylinder 8; the film covering structure includes: the device comprises a mounting rack 10, a film transferring roller 11, a compacting roller 12, a winding roller 13, three belt wheels 22, a belt 14, a limiting wheel 15 and a motor 16; the mounting rack 10 is mounted on the upper wall surface of the operating platform 1, the film transfer roller 11 is mounted on the mounting rack 10, the compaction roller 12 is mounted on the mounting rack 10, the wind-up roller 13 is mounted on the mounting rack 10, the three belt wheels 22 are sleeved at one ends of the film transfer roller 11, the compaction roller 12 and the wind-up roller 13, the belt 14 is sleeved on the three belt wheels 22, the limiting wheel 15 is mounted on the mounting rack 10, and the motor 16 is mounted at one end of the film transfer roller 11; the moving structure includes: two fourth straight pin screw rod modules 17, two second air cylinders 18, a table top 19 and two locking plates 20; the two fourth straight pin screw rod modules 17 are symmetrically embedded on the upper wall surface of the operating platform 1, the two second cylinders 18 are arranged on the upper wall surface of the moving ends of the two fourth straight pin screw rod modules 17, the table surface 19 is sleeved at the telescopic ends of the two second cylinders 18, and the two locking plates 20 are arranged at one ends of the telescopic ends of the two second cylinders 18; the lower wall surface of the pressing plate 9 is of a viscous structure; one end of the mounting frame 10 is provided with a scraper 21.

The implementation scheme is characterized by comprising the following operation steps: step S1, fixing the paster; step S2, pattern printing; step S3, carving edges; step S4, pattern pickup; step S5, covering the transfer film; step S6, compacting and fitting; step S7, fixing the pattern; step S8, peeling the transfer film; step S1: the paster is placed on the transfer applique equipment, and the transfer applique equipment fixes the paster; step S2: the transfer applique equipment prints the pattern on the sticker; step S3: the transfer applique equipment carves along the edge of the pattern to separate the pattern from the blank sticker; step S4: the transfer applique equipment peels the separated blank sticker off the bottom plate, and only the sticker part with the pattern is left on the bottom plate; step S5: the transfer film is covered on the paster with patterns; step S6: compacting the transfer film and the sticker with the pattern to ensure that the transfer film is attached to the sticker with the pattern; step S7: peeling the transfer film from the bottom plate, enabling the transfer film and the sticker with the pattern to simultaneously leave the bottom plate, and pasting the transfer film and the sticker with the pattern on the surface of a product to be pasted at high temperature; step S8: peeling the transfer film from the product, and leaving the sticker with the pattern on the surface of the product; the sticker is driven to move through the moving structure, the sticker is made to complete printing and carving, the patterns are separated, the transfer film is pasted on the outer surface of the product, the attractiveness of the product is improved, meanwhile, manual operation of operators is not needed, the workload of the operators is reduced, the problem that the operators can only cut approximate shapes after printing on the material by traditional outer applique and high-temperature-resistant appliques is solved, the peripheral dimensions can be clearly seen after the sticker is pasted on the surface of the product, the transparent part can see glue coated on the back, the attractiveness is affected, the appliques need to be manually picked up by the operators when peanut is pasted, and the workload of the operators is increased.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example (b): as can be seen from the attached figures 1-4 of the specification, firstly, a sticker is placed at the center of a table top 19, then an operator controls two second air cylinders 18 to contract, the two second air cylinders 18 drive two locking plates 20 to descend to fix the sticker on the table top 19, then two fourth straight pin screw modules 17 start to work to drive the sticker to move, when the sticker moves below the second straight pin screw module 4, the two fourth straight pin screw modules 17 stop working, then two first straight pin screw modules 2 and two second straight pin screw modules 4 work together to drive a printing and carving all-in-one machine head 5 to move, the printing and carving all-in-one machine head 5 prints the sticker, after printing is completed, the two first straight pin screw modules 2 and the second straight pin screw modules 4 work together to drive the printing and carving all-in-one machine head 5 to move to carve the edge of a pattern on the sticker, the pattern is separated from the blank paster, the paster at the edge of one locking plate 20 is separated, then the head 5 of the printing and carving all-in-one machine stops working, two fourth straight pin screw rod modules 17 continue working to drive the paster to move, when the paster moves to the lower end of the fixing frame 6, the two fourth straight pin screw rod modules 17 stop working, the first air cylinder 8 extends to drive the pressing plate 9 to press the paster, preferably, the lower wall surface of the pressing plate 9 is in a viscous structure, then the first air cylinder 8 drives the pressing plate 9 to ascend, the pressing plate 9 drives the blank paster to leave the bottom plate, then the third straight pin screw rod module 7 moves, the pressing plate 9 peels the blank paster off the bottom plate, only the pattern is left on the bottom plate, then the two fourth straight pin screw rod modules 17 move, when the paster moves to the lower part of the compaction roller 12, the motor 16 works to drive the transfer film roller 11 to rotate, under the action of the, the compacting roller 12 and the winding roller 13 rotate, the transfer film is wound on the transfer film roller 11, the sticky surface of the transfer film is opposite to the pattern, the compacting roller 12 is used for laminating the transfer film with the pattern, the winding roller 13 is used for winding the bottom plate of the transfer film, when the pattern leaves the compacting roller 12, the motor 16 stops rotating, preferably, further, one end of the mounting rack 10 is provided with a scraper 21, the scraper 21 is used for compacting the transfer film with a sticker with the pattern, the bottom plate is stripped from the transfer film, the transfer film and the sticker with the pattern simultaneously leave the bottom plate, the transfer film and the sticker with the pattern are pasted on the surface of a product to be laminated at high temperature, the product is stripped from the transfer film, and the sticker with the.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The method for carving the high-temperature-resistant transfer applique is characterized by comprising the following operation steps of: step S1, fixing the paster; step S2, pattern printing; step S3, carving edges; step S4, pattern pickup; step S5, covering the transfer film; step S6, compacting and fitting; step S7, fixing the pattern; step S8, peeling the transfer film;

step S2: the transfer applique equipment prints the pattern on the sticker;

step S5: the transfer film is covered on the paster with patterns;

2. The method for carving and transferring applique of claim 1, wherein the sticker is placed at the center of the transfer applique device in step S1.

3. The method for engraving high temperature resistant transfer applique of claim 1, wherein said transfer film in step S5 is a thermosetting ink PVC material.

4. The method for engraving high temperature resistant transfer applique of claim 1, wherein the transfer film in step S5 corresponds to a decal with a pattern.

5. The carving high-temperature-resistant transfer applique device according to claim 1, comprising a console (1), wherein the console (1) is provided with a printing carving structure, a separating structure, a laminating structure and a moving structure;

the printing engraving structure comprises: the printing and carving integrated machine comprises two first straight pin screw rod modules (2), two supporting rods (3), a second straight pin screw rod module (4) and a printing and carving integrated machine head (5);

two first straight round pin lead screw module (2) symmetry inlays and adorns in operation panel (1) wall, two install in two branch (3) first straight round pin lead screw module (2) move and serve the wall, the straight round pin lead screw module of second (4) are installed in two branch (3) one end, print sculpture all-in-one aircraft nose (5) and install in the straight round pin lead screw module of second (4) and move and serve the wall down.

6. An engraved high temperature resistant transfer applique apparatus according to claim 5, wherein said breakaway structure comprises: the device comprises a fixed frame (6), a third straight pin screw rod module (7), a first air cylinder (8) and a pressing plate (9);

the wall surface is installed on operation panel (1) in mount (6), wall surface under mount (6) is installed in third straight round pin lead screw module (7), wall surface under third straight round pin lead screw module (7) removal end is installed in first cylinder (8), clamp plate (9) are installed in the flexible end of first cylinder (8).

7. The engraved high temperature resistant transfer applique apparatus of claim 5, wherein said film structure comprises: the film transfer device comprises a mounting frame (10), a film transfer roller (11), a compaction roller (12), a wind-up roller (13), three belt wheels (22), a belt (14), a limiting wheel (15) and a motor (16);

mounting bracket (10) are installed in operation panel (1) upper wall, it installs on mounting bracket (10) to shift membrane roller (11), compaction roller (12) are installed on mounting bracket (10), wind-up roll (13) are installed on mounting bracket (10), and are three band pulley (22) suit is in shifting membrane roller (11), compaction roller (12) and wind-up roll (13) one end, belt (14) suit is three on band pulley (22), spacing wheel (15) are installed on mounting bracket (10), motor (16) are installed in shifting membrane roller (11) one end.

8. An engraved high temperature resistant transfer applique apparatus according to claim 5, wherein said moving structure comprises: two fourth straight pin screw rod modules (17), two second air cylinders (18), a table top (19) and two locking plates (20);

the two fourth straight pin screw modules (17) are symmetrically embedded on the upper wall surface of the operating platform (1), the two second cylinders (18) are arranged on the upper wall surface of the moving end of the two fourth straight pin screw modules (17), the table board (19) is sleeved at the telescopic ends of the two second cylinders (18), and the two locking plates (20) are arranged at one ends of the telescopic ends of the two second cylinders (18).

9. An engraved high temperature resistant transfer applique apparatus according to claim 6, wherein the platen (9) lower wall surface is of an adhesive construction.

10. An engraved high temperature resistant transfer applique apparatus according to claim 7, wherein said mounting bracket (10) is provided with a squeegee (21) at one end.